Vanadium-based solid solution hydrogen storage alloys have been attractived for their potential application in the negative electrode materials of Ni–MH battery because of their high hydrogen storage capacity, excellent diffusion rate in vanadium-based hydride and hydrogen absorption-desorption at room temperature.
钒基固溶体型贮氢合金由于其贮氢容量高、吸放氢速度快、可在室温下吸放氢等优点而具有广阔的发展前途,其最具前景的应用是制作镍氢二次电池的负极材料。
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Various new negative electrode materials, other than carbon materials had been developed.
其中碳素材料之外的各种新型负板材料的探索也引起关注。
Research progress on novel non-carbon negative electrode materials for lithium ion batteries;
寻找性能更为优良的非碳负极材料仍然是锂离子电池研究的重要课题。
The powder microelectrode cyclic voltammetric method was proved to be able to estimate the cyclic performance of carbon negative electrode materials in LIB.
同时也证明了粉末微电极循环伏安法用于估测LIB炭负极材料的循环性能的可行性。
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